Effect of cholinergic ligands and local anesthetics on acetylcholine receptor enriched membrane preparations from Torpedo californica electroplax.

Pyrene was introduced in acetylcholine receptor (AcChR)-rich membrane preparations of Torpedo californica electroplax. The lifetime of the singlet excited state of pyrene was used to probe the properties of the hydrocarbon regions of the lipid bilayer as well as the possible perturbing effects of cholinomimetic agents on this region. After excitation with a single 15-ns pulse with a Q-switched ruby laser, the lifetime of the pyrene singlet excited state in the membranes was 200 ns. In desensitized membranes the pyrene fluorescence lifetimes remained unchanged when the cholinergic ligands carbamylcholine, d-tubocurarine, decamethonium, and hexamethonium, as well as α-bungarotoxin, were present. By contrast, the lifetime was shortened when local anesthetics were present. In sensitized membranes no changes in the pyrene lifetimes were detected when the membranes were converted from their resting state to a carbamylcholine-induced “desensitized state.” Water-soluble fluorescence quenchers affected the lifetime of pyrene in membranes. The second order rate constants for the pyrene-quencher interaction were used to detect changes in fluidity and/or membrane lipid accessibility to quenchers induced by ligands or anesthetics. No changes were detected in the quenching constants of nitromethane or Tl⁺ in the presence of cholinergic agents (with the exception of d-tubocurarine); on the other hand, a marked decrease in Tl⁺ accessibility was induced by the anesthetics procaine and tetracaine. Fluorescene dynamics measurements indicate that the hydrocarbon core of the bulk lipid in electroplax is not significantly affected by binding cholinergic ligands to membranebound AcChR. However, the hydrophobic region of the membrane is perturbed by both local anesthetics and one cholinergic ligand, d-tubocurarine. Pyrene was also incorporated into lipid vesicles prepared from T. californica electroplax lipids. The fluorescence lifetimes and quenching values of these lifetimes yielded results similar to those obtained with both sensitized and “desensitized” membrane preparations. The d-tubocurarine effect on the Tl⁺ quenching of the pyrene probe is ascribed to direct interaction of d-tubocurarine with the lipids. These findings favor a mechanism in which perturbation of the hydrophobic (lipid) environment of the AcChR in membranes by local anesthetics and even d-tubocurarine may influence the receptor conversion: sensitized state ? desensitized state.